AD8309-EVALZ Analog Devices Inc, AD8309-EVALZ Datasheet - Page 2

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AD8309-EVALZ

Manufacturer Part Number
AD8309-EVALZ
Description
Manufacturer
Analog Devices Inc
Datasheet
1.AD8309-EVALZ.pdf (20 pages)

Specifications of AD8309-EVALZ

Lead Free Status / Rohs Status
Compliant
AD8309–SPECIFICATIONS
Parameter
INPUT STAGE
LIMITING AMPLIFIER
LOGARITHMIC AMPLIFIER
POWER INTERFACES
NOTES
1
2
3
Specifications subject to change without notice.
Minimum and maximum specified limits on parameters that are guaranteed but not tested are six sigma values.
The input level is specified in “dBV” since logarithmic amplifiers respond strictly to voltage, not power. 0 dBV corresponds to a sinusoidal single-frequency input of
1 V rms. A power level of 0 dBm (1 mW) in a 50
offset of +13 dBm in the special case of a 50
Due to the extremely high Gain Bandwidth Product of the AD8309, the output of either LMHI or LMLO will be unstable for levels below –78 dBV (–65 dBm, re 50 ).
Maximum Input
Noise Floor
Input Resistance
Input Capacitance
DC Bias Voltage
Usable Frequency Range
Phase Variation at 100 MHz
Limiter Output Current
Input Range
Maximum Output Voltage
Rise/Fall Time (10%–90%)
Transfer Slope
Intercept (Log Offset)
Linearity Error (Ripple)
Output Voltage
Minimum Load Resistance, R
Maximum Sink Current
Output Resistance
Small-Signal Bandwidth
Output Settling Time to 1%
Rise/Fall Time (10%–90%)
Supply Voltage, V
Quiescent Current
Disable Current
Additional Bias for Limiter
Logic Level to Enable Power
Input Current when HI
Logic Level to Disable Power
3 dB Error Dynamic Range
Equivalent Power in 50
Equivalent Power in 50
At Limiter Output
Over Temperature
3
2
POS
L
Conditions
(Inputs INHI, INLO)
Differential Drive, p-p
Terminated in 52.3
Terminated 50
500 MHz Bandwidth
From INHI to INLO
From INHI to INLO
Either Input
(Outputs LMHI, LMLO)
R
Over Input Range –60 dBm to +10 dBm
Nominally 400 mV/R
Versus Temperature –40 C
Equivalent dBm
At Either LMHI or LMLO, wrt VPS2
R
(Output VLOG)
From Noise Floor to Maximum Input
5 MHz
Over Temperature –40 C < T
5 MHz
Equivalent dBm (re 50 )
Over Temperature –40 C
Equivalent dBm (re 50 )
Temperature Sensitivity
Input from –83 dBV (–70 dBm) to +7 dBV (+20 dBm)
Input = –91 dBV (–78 dBm) V
Input = +9 dBV (+22 dBm) V
Input = +9 dBV (+22 dBm) V
To Ground
Large Scale Input, +3 dBV (+16 dBm),
R
Large Scale Input, +3 dBV (+16 dBm),
R
Zero-Signal, LMDR Open
–40 C < T
–40 C < T
R
HI Condition, –40 C < T
3 V at ENBL, –40 C < T
LO Condition, –40 C < T
LOAD
LOAD
L
L
LIM
termination.
50 , C
50 , C
= 400
termination corresponds to an input of 0.2236 V rms. Hence, the relationship between dBV and dBm is a fixed
= R
50 , 40
f
f
LIM
A
A
< +85 C
< +85 C
200 MHz
200 MHz
L
L
(See Text)
= 50
(V
100 pF
100 pF
S
Source
= +5 V, T
LIM
to –10 dB Point
R
LIM
A
A
A
< +85 C
A
< +85 C
–2–
T
< +85 C
= +25 C, unless otherwise noted)
T
400
A
A
S
S
S
A
< +85 C
= +5 V
= +2.75 V
= +5 V, +2.7 V
+85 C
+85 C
Min
800
5
0
–78
–65
1
18
17
–116
–103
–117
–104
40
0.75
2.7
13
11
1.8
–0.5
3.5
1
Typ
+9
+22
1.28
–78
1000
2.5
1.725
875
1
–0.008
1.25
0.4
100
20
20
–108
–95
–108
–95
–0.009
0.34
2.34
2.10
50
1.0
0.3
3.5
120
67
5
16
16
0.01
1.4
40
4
3
0.4
Max
1200
500
10
+9
+22
22
23
–100
–87
–99
–86
2.75
1.25
220
100
6.5
20
23
4
1.6
V
60
1
POS
1
Units
V
dBV
dBm
nV/ Hz
dBm
pF
V
MHz
MHz
Degrees
mA
%/ C
dBV
dBm
V
ns
dB
mV/dB
mV/dB
dBV
dBm
dBV
dBm
dB/ C
dB
V
V
V
mA
MHz
ns
ns
V
mA
mA
mA
V
V
REV. B
A
A